CN204205198U - Micro coaxial cable connector assembly - Google Patents

Abstract

The utility model relates to a kind of micro coaxial cable connector assembly, it comprises plug, internal circuit board and cable, described plug has insulating body and is contained in the some conducting terminals in insulating body, described insulating body is arranged with a butt hole, described conducting terminal comprises first, second terminal group, each conducting terminal has the docking section extended in butt hole and the weld part be soldered in internal circuit board, described internal circuit board has the some metal welding contact pin welded together one by one with weld part and the some metal connecting sheets welded together with cable, high speed between described brace and bonding pad receives and is electrically connected in man-to-man mode with transmission differential signal, low speed differential signal is electrically connected in the mode of a pair two, decrease the quantity of brace, simplify the line arrangement of internal circuit board, facilitate manufacture and the volume production of micro coaxial cable connector assembly.

Description

Micro coaxial cable connector assembly

Technical field

The utility model relates to a kind of micro coaxial cable connector assembly, particularly relates to a kind of micro coaxial cable connector assembly with internal circuit board.

Background technology

A connector and cable is generally included in existing micro coaxial cable connector assembly, connector comprises insulating body and is contained in the conducting terminal in insulating body, conducting terminal one end is docking section, be used for docking with butt connector, the other end is weld part, weld part and cable weld together, but, when the number of conducting terminal weld part is more, the process that weld part welds with cable is loaded down with trivial details, welding difficulty is high, cause weld efficiency and conforming product rate low, for solving this technical barrier, relevant manufacturer can increase by an internal circuit board usually, before circuit board, rear end is respectively arranged with golden finger, weld part and cable weld together with corresponding golden finger respectively, conducting terminal is set up by circuit board and cable electrically conduct.

Utility model content

The purpose of this utility model there are provided a kind of micro coaxial cable connector assembly with the line arrangement simplifying internal circuit board.

For realizing aforementioned object, the utility model adopts following technical scheme: a kind of micro coaxial cable connector assembly, it comprises plug, internal circuit board and cable, described plug has insulating body and is contained in the some conducting terminals in insulating body, described insulating body is arranged with a butt hole, described conducting terminal comprises first, second terminal group, each conducting terminal has the docking section extended in butt hole and the weld part be soldered in internal circuit board, described internal circuit board has the some metal welding contact pin welded together one by one with weld part and the some metal connecting sheets welded together with cable, first, the each terminal of second terminal group putting in order in the lateral direction is contrary, the docking section consistency from top to bottom one by one of described first end subgroup and the second terminal group, described bonding pad comprises the second assembly welding contact pin of welding with the first assembly welding contact pin of the first terminal bond pads and the second terminal group, each assembly welding contact pin comprises a pair low speed Difference signal pair, receive at a high speed Difference signal pair a pair and send Difference signal pair at a high speed a pair, two couple that described brace comprises a pair low speed Difference signal pair and the lower surface being arranged in internal circuit board upper surface receives at a high speed Difference signal pair and two to sending Difference signal pair at a high speed, high speed between described brace and bonding pad receives and is electrically connected in man-to-man mode with transmission differential signal, low speed differential signal is electrically connected in the mode of a pair two.

As further improvement of the utility model, described cable comprises the some wires welded together one by one with brace.

As further improvement of the utility model, described high speed receives and meets USB3.0 agreement with the transmission mode sending differential signal.

As further improvement of the utility model, the transmission mode of described low speed Difference signal pair meets USB2.0 agreement.

As further improvement of the utility model, the brace of described internal circuit board lower surface is arranged as two groups, each is organized arrangement 4 braces and comprises and receives at a high speed Difference signal pair a pair and send Difference signal pair at a high speed a pair, the spacing of two groups of braces is greater than the spacing of each brace in each group, and wherein one group of brace is electrically connected one by one with the corresponding bonding pad being positioned at internal circuit board upper surface, and another group is electrically connected one by one with the corresponding bonding pad being positioned at internal circuit board lower surface.

As further improvement of the utility model, the brace of described internal circuit board lower surface and cable disconnect and receiving at a high speed and the transmission sending differential signal to cancel.

As further improvement of the utility model, the brace of described internal circuit board upper surface is arranged as a row, sequential is as follows: GND, RFU1, RFU2, CC, D-, D+, VBUS, GND represents ground connection, CC represents control signal, the combination of D+, D-represents a pair low speed Difference signal pair, and RFU1, RFU2 representative is reserved.

As further improvement of the utility model, the brace that described GND, CC, D-, D+ and VBUS are corresponding and cable weld together, other braces and cable disconnect, described GND and VBUS is electrically connected with corresponding bonding pad in the mode of one-to-many respectively, and described micro coaxial cable connector assembly meets USB2.0 protocol transmission mode.

As further improvement of the utility model, the weld part of first, second terminal group described is arranged as a row and consistency from top to bottom one by one separately in left-right direction, internal circuit board upper surface is located in described first assembly welding contact pin, and internal circuit board lower surface is located in the second assembly welding contact pin.

As further improvement of the utility model, described micro coaxial cable connector assembly with positive direction or can insert respective socket connector to set up signal connection in the other direction, the front opening of described butt hole is flat ellipse, the docking section of described first end subgroup is the arcuate structure protruded downwards, the docking section of described second terminal group is arcuate structure protruding upward, described micro coaxial cable connector assembly also comprises the metal shell that is coated on internal circuit board periphery, and described cable has the braiding of welding with metal shell.

The utility model can also adopt following technical scheme: a kind of micro coaxial cable connector assembly, it comprises plug, internal circuit board and cable, described plug has insulating body and is contained in the some conducting terminals in insulating body, described insulating body is arranged with a butt hole, described conducting terminal comprises first, second terminal group, each conducting terminal has the docking section extended in butt hole and the weld part be soldered in internal circuit board, described internal circuit board has the some metal welding contact pin welded together one by one with weld part and the some metal connecting sheets welded together with cable, first, the each terminal of second terminal group putting in order in the lateral direction is contrary, the docking section consistency from top to bottom one by one of described first end subgroup and the second terminal group, described bonding pad comprises the second assembly welding contact pin of welding with the first assembly welding contact pin of the first terminal bond pads and the second terminal group, each assembly welding contact pin comprises a pair low speed Difference signal pair, receive at a high speed Difference signal pair a pair and send Difference signal pair at a high speed a pair, described brace comprises a pair low speed Difference signal pair being arranged in internal circuit board upper surface, one power supply and a ground connection, described brace comprises a pair low speed Difference signal pair be electrically connected with corresponding weld part, power supply, the brace of ground connection and control signal, described brace and reception and the bonding pad sent corresponding to high-speed differential signal disconnect, described brace meets USB2.0 protocol transmission mode.

As further improvement of the utility model, described brace is electrically connected with corresponding bonding pad in the mode of one-to-many.

As further improvement of the utility model, the quantity of first, second assembly welding contact pin described is respectively more than brace.

As further improvement of the utility model, described brace is arranged as a row in left-right direction, sequential is as follows: GND, RFU1, RFU2, CC, D-, D+, VBUS, GND represents ground connection, CC represents control signal, the combination of D+, D-represents a pair low speed Difference signal pair, and RFU1, RFU2 representative is reserved.

As further improvement of the utility model, the brace corresponding to described GND, CC, D-, D+ and VBUS and cable weld together, and the brace that RFU1, RFU2 are corresponding and cable disconnect.

Connected mode between the brace of the utility model micro coaxial cable connector assembly internal circuit board and bonding pad, the quantity of brace can be decreased, simplify the line arrangement of internal circuit board, convenient manufacture and volume production, in addition, the utility model micro coaxial cable connector assembly, can according to the actual user demand of consumer in volume production process, expand or reduce using function, the scope of application of micro coaxial cable connector assembly, thus production control cost effectively and reasonably.

Accompanying drawing explanation

Fig. 1 is the schematic perspective view of the utility model micro coaxial cable connector assembly.

Fig. 2 is the view of another angle of Fig. 1.

Fig. 3 is the three-dimensional exploded view of the utility model micro coaxial cable connector assembly.

Fig. 4 is the view of another angle of Fig. 3.

Fig. 5 is the upper surface view of the internal circuit board of the utility model micro coaxial cable connector assembly.

Fig. 6 is the lower surface view of the internal circuit board of the utility model micro coaxial cable connector assembly.

Fig. 7 is the schematic perspective view that the internal circuit board of micro coaxial cable connector assembly in another execution mode of the utility model and cable weld together.

Fig. 8 is the schematic perspective view that the internal circuit board of micro coaxial cable connector assembly in another execution mode of the utility model and cable are separated.

Embodiment

Refer to shown in Fig. 1 to Fig. 4, the utility model micro coaxial cable connector assembly 100 is a kind of plug connector components that can transmit the signals such as USB2.0, USB3.0 agreement and power supply, it cable 40 comprising plug 10, internal circuit board 20, metal shell 30 and extend back metal shell 30.

Plug 10 is used for being inserted in respective socket connector (not shown), it comprises an insulating body 11, be contained in the metal shielding casing 13 of some conducting terminals 12 in insulating body 11 and coated insulation body 11, insulating body 11 front end is arranged with a butt hole 110, and the front opening of butt hole 110 is flat ellipse.Conducting terminal 12 comprises one and ranked first terminal group 121 and be positioned at one below first end subgroup 121 and ranked second terminal group 122, identical and the consistency from top to bottom one by one of the quantity of first, second terminal group 121, each conducting terminal 12 has the docking section 123 being positioned at front end and the weld part 124 being positioned at rear end, docking section 123 extends forwardly in butt hole 110, is used for docking with socket connector.The docking section 123 of first end subgroup 121 is the arcuate structure protruded downwards, the docking section 123 of the second terminal group 122 is arcuate structure protruding upward, and docking section 123 consistency from top to bottom one by one of first, second terminal group 121,122, in addition, first, second terminal group 121,122 putting in order in the lateral direction is contrary, design like this, no matter this micro coaxial cable connector assembly 100 inserts socket connector with positive direction or opposite direction, all can set up signal to connect, and without the restriction of direction of insertion, person easy to use inserts socket connector.The weld part 124 of first, second terminal group 121,122 is arranged as a row separately in left-right direction, and consistency from top to bottom one by one.

Internal circuit board 20 has relative front 21, rear 22 and be convenient to the through hole 25 of fixing internal circuit board 20, through hole about 25 runs through internal circuit board 20, front 21 upper, lower surface is arranged separately and is provided with and first, second terminal group 121, row's metal welding contact pin 23 that 122 weld parts 124 are corresponding, the bonding pad 23 being positioned at upper surface is the first assembly welding contact pin 23, the bonding pad 23 being positioned at lower surface is the second assembly welding contact pin 23, each assembly welding contact pin 23 has 12 altogether, with first, second terminal group 121, 122 one_to_one corresponding, the each Pin of bonding pad 23 puts in order and defines and is consistent with conducting terminal 20, the bonding pad 23 of upper surface puts in order contrary with the bonding pad 23 of lower surface and electrically conducts one by one, bonding pad 23 and conducting terminal 12 weld part 124 weld together one by one, because the bonding pad 23 of upper surface electrically conducts one by one with the bonding pad 23 of lower surface, make first, second terminal group 121, 122 also electrically conduct one by one.

The bonding pad 23 of internal circuit board 20 upper surface in Figure 5, from right to left, be A1 by first bonding pad 23 sequence number, sequentially arrange left, rear bonding pad 23 sequence number is A12, the bonding pad 23 of lower surface in figure 6, from right to left, be B1 by first bonding pad 23 sequence number, sequentially arrange left, rear bonding pad 23 sequence number is B12, and following table is listed each Pin in detail and defined:

Pin sequence number	Pin defines	Pin sequence number	Pin defines
				A1	GND	B12	GND
A2	TX1+	B11	TX2+
				A3	TX1-	B10	TX2-
A4	VBUS	B9	VBUS
				A5	CC	B8	CC
A6	D+	B7	D+
				A7	D-	B6	D-
A8	RFU1	B5	RFU2
				A9	VBUS	B4	VBUS
A10	RX1-	B3	RX2-
				A11	RX1+	B2	RX2+
A12	GND	B1	GND

GND represents ground connection, TX1+, TX1-and TX2+, the combination of TX2-represents a pair high speed (being up to 10Gbps) respectively and sends Difference signal pair, signal transfer mode meets USB3.0 agreement, TX1-, TX1+ represents first pair of Difference signal pair, TX2+, TX2-represents second pair of Difference signal pair, TX+ represents positive differential signal, TX-represents negative differential signal, RX1+, RX1-and RX2+, the combination of RX2-represents a pair respectively and receives Difference signal pair at a high speed, signal transfer mode meets USB3.0 agreement, RX1-, RX1+ represents first pair of Difference signal pair, RX2+, RX2-represents second pair of Difference signal pair, RX+ represents positive differential signal, RX-represents negative differential signal, VBUS represents power supply, D+, the combination of D-represents a pair low speed (being up to 480Mbps) Difference signal pair, signal transfer mode meets USB2.0 agreement, D+ represents positive differential signal, D-represents negative differential signal, CC represents control signal, in order to control power supply, the transmission direction of signal and size etc., RFU1, RFU2 representative is reserved, may use in the future.

On the rear 22 of internal circuit board 20, lower surface is also arranged separately and is provided with row's metal connecting sheet 24, brace 24 is electrically connected with corresponding bonding pad 23, the brace 24 of internal circuit board 20 upper surface in Figure 5, from right to left, be C1 by first brace 24 sequence number, sequentially arrange left, have 7 braces 24, a rear bonding pad sequence number is C7, the brace 24 of lower surface in figure 6, from right to left, be D1 by first bonding pad 23 sequence number, sequentially arrange left, have 8 braces 24, rear brace 24 sequence number is D8, following table is listed each Pin in detail and is defined:

Pin sequence number	Pin defines	Pin sequence number	Pin defines
				C1	GND	D1	TX1+
C2	RFU1	D2	TX1-
				C3	RFU2	D3	RX1+
C4	CC	D4	RX1+
				C5	D-	D5	TX2-
C6	D+	D6	TX2+
				C7	VBUS	D7	TX2-
		D8	TX2+

The brace 24 of sequence number to be the common and sequence number of the ground connection bonding pad 23 of A1, A12, B1, B12 be C1 is electrically connected, be grounded loop, the brace 24 of sequence number to be the common and sequence number of the power solder sheet 23 of A4, A9, B4, B9 be C7 is electrically connected, the brace 24 of sequence number to be the common and sequence number of two bonding pads 23 of the control signal of A5, B8 be C4 is electrically connected, above-mentioned connected mode be four to one or two to one mode be electrically connected, decrease the quantity of brace 24, simplify the line arrangement of internal circuit board 20, convenient manufacture.Bonding pad 23 and the brace 24 of other sequence numbers are electrically connected for man-to-man mode.

Sequence number is that the width of two braces 24 of C1, C7 is greater than other braces 24, and this two brace 24 can weld multiple conducting wires 41 simultaneously, realizes power source diverter.The brace 24 being arranged in internal circuit board 20 lower surface is all for transmitting the high-speed differential signal meeting USB3.0 agreement, and the brace 24 being used for transmitting the low speed differential signal and other signals meeting USB2.0 agreement is arranged in internal circuit board 20 upper surface, the brace 24 being positioned at internal circuit board 20 lower surface is arranged as two groups, each is organized arrangement 4 braces and comprises and receives at a high speed Difference signal pair a pair and send Difference signal pair at a high speed a pair, the spacing of two groups is greater than the spacing of each brace 24 in each group, and wherein one group of brace 24 is electrically connected one by one with the corresponding bonding pad 23 being positioned at internal circuit board 20 upper surface, and another group is electrically connected one by one with the corresponding bonding pad 23 being positioned at lower surface, make the line design rational and orderly of internal circuit board 20, specification, ensure the reliability be electrically connected, facilitate manufacture and the volume production of internal circuit board 20 simultaneously.

Metal shell 30 is coated on the outside of internal circuit board 20, and plug 10 and cable 40 are gripped, plug 10 protrudes metal shell 30 forward, and cable 40 extends back metal shell 30.

Cable 40 has the some wires 41 welded together one by one with brace 24 and the braiding (sign) welded together with metal shell 30, cable 40 to be set up with the conducting terminal 12 of plug 10 by internal circuit board 20 and is electrically conducted, meanwhile, metal shell 30 and cable 40 set up grounded circuit.

Refer to shown in Fig. 7 to Fig. 8, another execution mode of the utility model is the quantity by reducing cable 50 wire 51, in internal circuit board 20, only sequence number is C1, the brace 24 of C4 ~ C7 welds with cable 50, remaining brace 24 and cable 50 disconnect and all on the shelf with bonding pad 20 with the conducting terminal 12 of its electric connection, make micro coaxial cable connector assembly 100 only can transmit USB2.0 signal, eliminate unnecessary structure, simplify the structure of micro coaxial cable connector assembly 100, be conducive to production control cost, because sequence number is C1, the brace 24 of C4 ~ C7 is all positioned at internal circuit board 20 upper surface, be welded as single welding, procedure for processing can be reduced and improve the stability of processing, this execution mode can meet the user demand of consumer personalization.

So, the utility model micro coaxial cable connector assembly 100 is in volume production process, can according to the actual user demand of consumer, by increasing or reduce wire 41,51 quantity, expand or reduce the using function of micro coaxial cable connector assembly 100, the scope of application, thus production control cost effectively and reasonably.

Although be example object, disclose preferred implementation of the present utility model, but those of ordinary skill in the art will recognize, when not departing from scope and spirit of the present utility model disclosed in appending claims, various improvement, increase and replacement are possible.

Claims (15)

1. a micro coaxial cable connector assembly, it comprises plug, internal circuit board and cable, described plug has insulating body and is contained in the some conducting terminals in insulating body, described insulating body is arranged with a butt hole, described conducting terminal comprises first, second terminal group, each conducting terminal has the docking section extended in butt hole and the weld part be soldered in internal circuit board, described internal circuit board has the some metal welding contact pin welded together one by one with weld part and the some metal connecting sheets welded together with cable, it is characterized in that: first, the each terminal of second terminal group putting in order in the lateral direction is contrary, the docking section consistency from top to bottom one by one of described first end subgroup and the second terminal group, described bonding pad comprises the second assembly welding contact pin of welding with the first assembly welding contact pin of the first terminal bond pads and the second terminal group, each assembly welding contact pin comprises a pair low speed Difference signal pair, receive at a high speed Difference signal pair a pair and send Difference signal pair at a high speed a pair, two couple that described brace comprises a pair low speed Difference signal pair and the lower surface being arranged in internal circuit board upper surface receives at a high speed Difference signal pair and two to sending Difference signal pair at a high speed, high speed between described brace and bonding pad receives and is electrically connected in man-to-man mode with transmission differential signal, low speed differential signal is electrically connected in the mode of a pair two.

2. micro coaxial cable connector assembly according to claim 1, is characterized in that: described cable comprises the some wires welded together one by one with brace.

3. micro coaxial cable connector assembly according to claim 1, is characterized in that: described high speed receives and meets USB3.0 agreement with the transmission mode sending differential signal.

4. micro coaxial cable connector assembly according to claim 1, is characterized in that: the transmission mode of described low speed Difference signal pair meets USB2.0 agreement.

5. micro coaxial cable connector assembly according to claim 1, it is characterized in that: the brace of described internal circuit board lower surface is arranged as two groups, each is organized arrangement 4 braces and comprises and receives at a high speed Difference signal pair a pair and send Difference signal pair at a high speed a pair, the spacing of two groups of braces is greater than the spacing of each brace in each group, and wherein one group of brace is electrically connected one by one with the corresponding bonding pad being positioned at internal circuit board upper surface, and another group is electrically connected one by one with the corresponding bonding pad being positioned at internal circuit board lower surface.

6. micro coaxial cable connector assembly according to claim 1, is characterized in that: the brace of described internal circuit board lower surface and cable disconnect and receiving at a high speed and the transmission sending differential signal to cancel.

7. micro coaxial cable connector assembly according to claim 1, is characterized in that: the brace of described internal circuit board upper surface is arranged as a row, and sequential is as follows: GND, RFU1, RFU2, CC, D-, D+, VBUS.

8. micro coaxial cable connector assembly according to claim 7, it is characterized in that: the brace that described GND, CC, D-, D+ and VBUS are corresponding and cable weld together, other braces and cable disconnect, described GND and VBUS is electrically connected with corresponding bonding pad in the mode of one-to-many respectively, and described micro coaxial cable connector assembly meets USB2.0 protocol transmission mode.

9. micro coaxial cable connector assembly according to claim 1, it is characterized in that: the weld part of first, second terminal group described is arranged as a row and consistency from top to bottom one by one separately in left-right direction, internal circuit board upper surface is located in described first assembly welding contact pin, and internal circuit board lower surface is located in the second assembly welding contact pin.

10. micro coaxial cable connector assembly according to claim 1, it is characterized in that: described micro coaxial cable connector assembly with positive direction or can insert respective socket connector to set up signal connection in the other direction, the front opening of described butt hole is flat ellipse, the docking section of described first end subgroup is the arcuate structure protruded downwards, the docking section of described second terminal group is arcuate structure protruding upward, described micro coaxial cable connector assembly also comprises the metal shell that is coated on internal circuit board periphery, and described cable has the braiding of welding with metal shell.

11. 1 kinds of micro coaxial cable connector assemblies, it comprises plug, internal circuit board and cable, described plug has insulating body and is contained in the some conducting terminals in insulating body, described insulating body is arranged with a butt hole, described conducting terminal comprises first, second terminal group, each conducting terminal has the docking section extended in butt hole and the weld part be soldered in internal circuit board, described internal circuit board has the some metal welding contact pin welded together one by one with weld part and the some metal connecting sheets welded together with cable, it is characterized in that: first, the each terminal of second terminal group putting in order in the lateral direction is contrary, the docking section consistency from top to bottom one by one of described first end subgroup and the second terminal group, described bonding pad comprises the second assembly welding contact pin of welding with the first assembly welding contact pin of the first terminal bond pads and the second terminal group, each assembly welding contact pin comprises a pair low speed Difference signal pair, receive at a high speed Difference signal pair a pair and send Difference signal pair at a high speed a pair, described brace comprises a pair low speed Difference signal pair being arranged in internal circuit board upper surface, one power supply and a ground connection, described brace comprises a pair low speed Difference signal pair be electrically connected with corresponding weld part, power supply, the brace of ground connection and control signal, described brace and reception and the bonding pad sent corresponding to high-speed differential signal disconnect, described brace meets USB2.0 protocol transmission mode.

12. micro coaxial cable connector assemblies according to claim 11, is characterized in that: described brace is electrically connected with corresponding bonding pad in the mode of one-to-many.

13. micro coaxial cable connector assemblies according to claim 11, is characterized in that: the quantity of first, second assembly welding contact pin described is respectively more than brace.

14. micro coaxial cable connector assemblies according to claim 11, is characterized in that: described brace is arranged as a row in left-right direction, and sequential is as follows: GND, RFU1, RFU2, CC, D-, D+, VBUS.

15. micro coaxial cable connector assemblies according to claim 14, is characterized in that: the brace corresponding to described GND, CC, D-, D+ and VBUS and cable weld together, and the brace that RFU1, RFU2 are corresponding and cable disconnect.